324 results on '"Sarychev, M."'
Search Results
2. Kinetics of Electromigration Mass Transfer in the Interface Elements of Micro- and Nanoelectronics Depending on the Strength of Thin-Film Connections
- Author
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Makhviladze, T. M. and Sarychev, M. E.
- Published
- 2024
- Full Text
- View/download PDF
3. Influence of the Crystallographic Anisotropy on the Stabilization Energy and Contribution from the Jahn–Teller Subsystem to the Elastic Moduli of Doped Crystals
- Author
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Gudkov, V. V., Averkiev, N. S., Zhevstovskikh, I. V., Korostelin, Yu. V., and Sarychev, M. N.
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- 2024
- Full Text
- View/download PDF
4. Simulation of the Effect of Lattice Defects on the Work of Joined Materials Separation
- Author
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Makhviladze, T. M. and Sarychev, M. E.
- Published
- 2023
- Full Text
- View/download PDF
5. The LUX-ZEPLIN (LZ) radioactivity and cleanliness control programs
- Author
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Akerib, D. S., Akerlof, C. W., Akimov, D. Yu., Alquahtani, A., Alsum, S. K., Anderson, T. J., Angelides, N., Araújo, H. M., Arbuckle, A., Armstrong, J. E., Arthurs, M., Auyeung, H., Aviles, S., Bai, X., Bailey, A. J., Balajthy, J., Balashov, S., Bang, J., Barry, M. J., Bauer, D., Bauer, P., Baxter, A., Belle, J., Beltrame, P., Bensinger, J., Benson, T., Bernard, E. P., Bernstein, A., Bhatti, A., Biekert, A., Biesiadzinski, T. P., Birch, H. J., Birrittella, B., Boast, K. E., Bolozdynya, A. I., Boulton, E. M., Boxer, B., Bramante, R., Branson, S., Brás, P., Breidenbach, M., Brew, C. A. J., Buckley, J. H., Bugaev, V. V., Bunker, R., Burdin, S., Busenitz, J. K., Cabrita, R., Campbell, J. S., Carels, C., Carlsmith, D. L., Carlson, B., Carmona-Benitez, M. C., Cascella, M., Chan, C., Cherwinka, J. J., Chiller, A. A., Chiller, C., Chott, N. I., Cole, A., Coleman, J., Colling, D., Conley, R. A., Cottle, A., Coughlen, R., Cox, G., Craddock, W. W., Curran, D., Currie, A., Cutter, J. E., da Cunhaw, J. P., Dahl, C. E., Dardin, S., Dasu, S., Davis, J., Davison, T. J. R., de Viveiros, L., Decheine, N., Dobi, A., Dobson, J. E. Y., Druszkiewicz, E., Dushkin, A., Edberg, T. K., Edwards, W. R., Edwards, B. N., Edwards, J., Elnimr, M. M., Emmet, W. T., Eriksen, S. R., Faham, C. H., Fan, A., Fayer, S., Fiorucci, S., Flaecher, H., Florang, I. M. Fogarty, Ford, P., Francis, V. B., Fraser, E. D., Froborg, F., Fruth, T., Gaitskell, R. J., Gantos, N. J., Garcia, D., Gehman, V. M., Gelfand, R., Genovesi, J., Gerhard, R. M., Ghag, C., Gibson, E., Gilchriese, M. G. D., Gokhale, S., Gomber, B., Gonda, T. G., Greenall, A., Greenwood, S., Gregerson, G., van der Grinten, M. G. D., Gwilliam, C. B., Hall, C. R., Hamilton, D., Hans, S., Hanzel, K., Harrington, T., Harrison, A., Harrison, J., Hasselkus, C., Haselschwardt, S. J., Hemer, D., Hertel, S. A., Heise, J., Hillbrand, S., Hitchcock, O., Hjemfelt, C., Hoff, M. D., Holbrook, B., Holtom, E., Hor, J. Y-K., Horn, M., Huang, D. Q., Hurteau, T. W., Ignarra, C. M., Irving, M. N., Jacobsen, R. G., Jahangir, O., Jeffery, S. N., Ji, W., Johnson, M., Johnson, J., Johnson, P., Jones, W. G., Kaboth, A. C., Kamaha, A., Kamdin, K., Kasey, V., Kazkaz, K., Keefner, J., Khaitan, D., Khaleeq, M., Khazov, A., Khromov, A. V., Khurana, I., Kim, Y. D., Kim, W. T., Kocher, C. D., Kodroff, D., Konovalov, A. M., Korley, L., Korolkova, E. V., Koyuncu, M., Kras, J., Kraus, H., Kravitz, S. W., Krebs, H. J., Kreczko, L., Krikler, B., Kudryavtsev, V. A., Kumpan, A. V., Kyre, S., Lambert, A. R., Landerud, B., Larsen, N. A., Laundrie, A., Leason, E. A., Lee, H. S., Lee, J., Lee, C., Lenardo, B. G., Leonard, D. S., Leonard, R., Lesko, K. T., Levy, C., Li, J., Liu, Y., Liao, J., Liao, F. -T., Lin, J., Lindote, A., Linehan, R., Lippincott, W. H., Liu, R., Liu, X., Loniewski, C., Lopes, M. I., Lopez-Asamar, E., Paredes, B. López, Lorenzon, W., Lucero, D., Luitz, S., Lyle, J. M., Lynch, C., Majewski, P. A., Makkinje, J., Malling, D. C., Manalaysay, A., Manenti, L., Mannino, R. L., Marangou, N., Markley, D. J., MarrLaundrie, P., Martin, T. J., Marzioni, M. F., Maupin, C., McConnell, C. T., McKinsey, D. N., McLaughlin, J., Mei, D. -M., Meng, Y., Miller, E. H., Minaker, Z. J., Mizrachi, E., Mock, J., Molash, D., Monte, A., Monzani, M. E., Morad, J. A., Morrison, E., Mount, B. J., Murphy, A. St. J., Naim, D., Naylor, A., Nedlik, C., Nehrkorn, C., Nelson, H. N., Nesbit, J., Neves, F., Nikkel, J. A., Nikoleyczik, J. A., Nilima, A., O'Dell, J., Oh, H., O'Neill, F. G., O'Sullivan, K., Olcina, I., Olevitch, M. A., Oliver-Mallory, K. C., Oxborough, L., Pagac, A., Pagenkopf, D., Pal, S., Palladino, K. J., Palmaccio, V. M., Palmer, J., Pangilinan, M., Parveen, N., Patton, S. J., Pease, E. K., Penning, B. P., Pereira, G., Pereira, C., Peterson, I. B., Piepke, A., Pierson, S., Powell, S., Preece, R. M., Pushkin, K., Qie, Y., Racine, M., Ratcliff, B. N., Reichenbacher, J., Reichhart, L., Rhyne, C. A., Richards, A., Riffard, Q., Rischbieter, G. R. C., Rodrigues, J. P., Rose, H. J., Rosero, R., Rossiter, P., Rucinski, R., Rutherford, G., Saba, J. S., Sabarots, L., Santone, D., Sarychev, M., Sazzad, A. B. M. R., Schnee, R. W., Schubnell, M., Scovell, P. R., Severson, M., Seymour, D., Shaw, S., Shutt, G. W., Shutt, T. A., Silk, J. J., Silva, C., Skarpaas, K., Skulski, W., Smith, A. R., Smith, R. J., Smith, R. E., So, J., Solmaz, M., Solovov, V. N., Sorensen, P., Sosnovtsev, V. V., Stancu, I., Stark, M. R., Stephenson, S., Stern, N., Stevens, A., Stiegler, T. M., Stifter, K., Studley, R., Sumner, T. J., Sundarnath, K., Sutcliffe, P., Swanson, N., Szydagis, M., Tan, M., Taylor, W. C., Taylor, R., Taylor, D. J., Temples, D., Tennyson, B. P., Terman, P. A., Thomas, K. J., Thomson, J. A., Tiedt, D. R., Timalsina, M., To, W. H., Tomás, A., Tope, T. E., Tripathi, M., Tronstad, D. R., Tull, C. E., Turner, W., Tvrznikova, L., Utes, M., Utku, U., Uvarov, S., Va'vra, J., Vacheret, A., Vaitkus, A., Verbus, J. R., Vietanen, T., Voirin, E., Vuosalo, C. O., Walcott, S., Waldron, W. L., Walker, K., Wang, J. J., Wang, R., Wang, L., Wang, W., Wang, Y., Watson, J. R., Migneault, J., Weatherly, S., Webb, R. C., Wei, W. -Z., While, M., White, R. G., White, J. T., White, D. T., Whitis, T. J., Wisniewski, W. J., Wilson, K., Witherell, M. S., Wolfs, F. L. H., Wolfs, J. D., Woodward, D., Worm, S. D., Xiang, X., Xiao, Q., Xu, J., Yeh, M., Yin, J., Young, I., Zhang, C., and Zarzhitsky, P.
- Subjects
Physics - Instrumentation and Detectors ,High Energy Physics - Experiment - Abstract
LUX-ZEPLIN (LZ) is a second-generation direct dark matter experiment with spin-independent WIMP-nucleon scattering sensitivity above $1.4 \times 10^{-48}$ cm$^{2}$ for a WIMP mass of 40 GeV/c$^{2}$ and a 1000 d exposure. LZ achieves this sensitivity through a combination of a large 5.6 t fiducial volume, active inner and outer veto systems, and radio-pure construction using materials with inherently low radioactivity content. The LZ collaboration performed an extensive radioassay campaign over a period of six years to inform material selection for construction and provide an input to the experimental background model against which any possible signal excess may be evaluated. The campaign and its results are described in this paper. We present assays of dust and radon daughters depositing on the surface of components as well as cleanliness controls necessary to maintain background expectations through detector construction and assembly. Finally, examples from the campaign to highlight fixed contaminant radioassays for the LZ photomultiplier tubes, quality control and quality assurance procedures through fabrication, radon emanation measurements of major sub-systems, and bespoke detector systems to assay scintillator are presented., Comment: 45 pages (79 inc. tables), 7 figures, 9 tables
- Published
- 2020
- Full Text
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6. Magnetoelasticity of a Jahn–Teller Subsystem in Chromium-Doped II–VI Crystals
- Author
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Sarychev, M. N., Zhevstovskikh, I. V., Korostelin, Yu. V., Surikov, V. T., Averkiev, N. S., and Gudkov, V. V.
- Published
- 2023
- Full Text
- View/download PDF
7. The LUX-ZEPLIN (LZ) Experiment
- Author
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The LZ Collaboration, Akerib, D. S., Akerlof, C. W., Akimov, D. Yu., Alquahtani, A., Alsum, S. K., Anderson, T. J., Angelides, N., Araújo, H. M., Arbuckle, A., Armstrong, J. E., Arthurs, M., Auyeung, H., Bai, X., Bailey, A. J., Balajthy, J., Balashov, S., Bang, J., Barry, M. J., Barthel, J., Bauer, D., Bauer, P., Baxter, A., Belle, J., Beltrame, P., Bensinger, J., Benson, T., Bernard, E. P., Bernstein, A., Bhatti, A., Biekert, A., Biesiadzinski, T. P., Birrittella, B., Boast, K. E., Bolozdynya, A. I., Boulton, E. M., Boxer, B., Bramante, R., Branson, S., Brás, P., Breidenbach, M., Buckley, J. H., Bugaev, V. V., Bunker, R., Burdin, S., Busenitz, J. K., Campbell, J. S., Carels, C., Carlsmith, D. L., Carlson, B., Carmona-Benitez, M. C., Cascella, M., Chan, C., Cherwinka, J. J., Chiller, A. A., Chiller, C., Chott, N. I., Cole, A., Coleman, J., Colling, D., Conley, R. A., Cottle, A., Coughlen, R., Craddock, W. W., Curran, D., Currie, A., Cutter, J. E., da Cunha, J. P., Dahl, C. E., Dardin, S., Dasu, S., Davis, J., Davison, T. J. R., de Viveiros, L., Decheine, N., Dobi, A., Dobson, J. E. Y., Druszkiewicz, E., Dushkin, A., Edberg, T. K., Edwards, W. R., Edwards, B. N., Edwards, J., Elnimr, M. M., Emmet, W. T., Eriksen, S. R., Faham, C. H., Fan, A., Fayer, S., Fiorucci, S., Flaecher, H., Florang, I. M. Fogarty, Ford, P., Francis, V. B., Froborg, F., Fruth, T., Gaitskell, R. J., Gantos, N. J., Garcia, D., Geffre, A., Gehman, V. M., Gelfand, R., Genovesi, J., Gerhard, R. M., Ghag, C., Gibson, E., Gilchriese, M. G. D., Gokhale, S., Gomber, B., Gonda, T. G., Greenall, A., Greenwood, S., Gregerson, G., van der Grinten, M. G. D., Gwilliam, C. B., Hall, C. R., Hamilton, D., Hans, S., Hanzel, K., Harrington, T., Harrison, A., Hasselkus, C., Haselschwardt, S. J., Hemer, D., Hertel, S. A., Heise, J., Hillbrand, S., Hitchcock, O., Hjemfelt, C., Hoff, M. D., Holbrook, B., Holtom, E., Hor, J. Y-K., Horn, M., Huang, D. Q., Hurteau, T. W., Ignarra, C. M., Irving, M. N., Jacobsen, R. G., Jahangir, O., Jeffery, S. N., Ji, W., Johnson, M., Johnson, J., Johnson, P., Jones, W. G., Kaboth, A. C., Kamaha, A., Kamdin, K., Kasey, V., Kazkaz, K., Keefner, J., Khaitan, D., Khaleeq, M., Khazov, A., Khromov, A. V., Khurana, I., Kim, Y. D., Kim, W. T., Kocher, C. D., Konovalov, A. M., Korley, L., Korolkova, E. V., Koyuncu, M., Kras, J., Kraus, H., Kravitz, S. W., Krebs, H. J., Kreczko, L., Krikler, B., Kudryavtsev, V. A., Kumpan, A. V., Kyre, S., Lambert, A. R., Landerud, B., Larsen, N. A., Laundrie, A., Leason, E. A., Lee, H. S., Lee, J., Lee, C., Lenardo, B. G., Leonard, D. S., Leonard, R., Lesko, K. T., Levy, C., Li, J., Liu, Y., Liao, J., Liao, F. -T., Lin, J., Lindote, A., Linehan, R., Lippincott, W. H., Liu, R., Liu, X., Loniewski, C., Lopes, M. I., Paredes, B. López, Lorenzon, W., Lucero, D., Luitz, S., Lyle, J. M., Lynch, C., Majewski, P. A., Makkinje, J., Malling, D. C., Manalaysay, A., Manenti, L., Mannino, R. L., Marangou, N., Markley, D. J., MarrLaundrie, P., Martin, T. J., Marzioni, M. F., Maupin, C., McConnell, C. T., McKinsey, D. N., McLaughlin, J., Mei, D. -M., Meng, Y., Miller, E. H., Minaker, Z. J., Mizrachi, E., Mock, J., Molash, D., Monte, A., Monzani, M. E., Morad, J. A., Morrison, E., Mount, B. J., Murphy, A. St. J., Naim, D., Naylor, A., Nedlik, C., Nehrkorn, C., Nelson, H. N., Nesbit, J., Neves, F., Nikkel, J. A., Nikoleyczik, J. A., Nilima, A., O'Dell, J., Oh, H., O'Neill, F. G., O'Sullivan, K., Olcina, I., Olevitch, M. A., Oliver-Mallory, K. C., Oxborough, L., Pagac, A., Pagenkopf, D., Pal, S., Palladino, K. J., Palmaccio, V. M., Palmer, J., Pangilinan, M., Patton, S. J., Pease, E. K., Penning, B. P., Pereira, G., Pereira, C., Peterson, I. B., Piepke, A., Pierson, S., Powell, S., Preece, R. M., Pushkin, K., Qie, Y., Racine, M., Ratcliff, B. N., Reichenbacher, J., Reichhart, L., Rhyne, C. A., Richards, A., Riffard, Q., Rischbieter, G. R. C., Rodrigues, J. P., Rose, H. J., Rosero, R., Rossiter, P., Rucinski, R., Rutherford, G., Rynders, D., Saba, J. S., Sabarots, L., Santone, D., Sarychev, M., Sazzad, A. B. M. R., Schnee, R. W., Schubnell, M., Scovell, P. R., Severson, M., Seymour, D., Shaw, S., Shutt, G. W., Shutt, T. A., Silk, J. J., Silva, C., Skarpaas, K., Skulski, W., Smith, A. R., Smith, R. J., Smith, R. E., So, J., Solmaz, M., Solovov, V. N., Sorensen, P., Sosnovtsev, V. V., Stancu, I., Stark, M. R., Stephenson, S., Stern, N., Stevens, A., Stiegler, T. M., Stifter, K., Studley, R., Sumner, T. J., Sundarnath, K., Sutcliffe, P., Swanson, N., Szydagis, M., Tan, M., Taylor, W. C., Taylor, R., Taylor, D. J., Temples, D., Tennyson, B. P., Terman, P. A., Thomas, K. J., Thomson, J. A., Tiedt, D. R., Timalsina, M., To, W. H., Tomás, A., Tope, T. E., Tripathi, M., Tronstad, D. R., Tull, C. E., Turner, W., Tvrznikova, L., Utes, M., Utku, U., Uvarov, S., Va'vra, J., Vacheret, A., Vaitkus, A., Verbus, J. R., Vietanen, T., Voirin, E., Vuosalo, C. O., Walcott, S., Waldron, W. L., Walker, K., Wang, J. J., Wang, R., Wang, L., Wang, Y., Watson, J. R., Migneault, J., Weatherly, S., Webb, R. C., Wei, W. -Z., While, M., White, R. G., White, J. T., White, D. T., Whitis, T. J., Wisniewski, W. J., Wilson, K., Witherell, M. S., Wolfs, F. L. H., Wolfs, J. D., Woodward, D., Worm, S. D., Xiang, X., Xiao, Q., Xu, J., Yeh, M., Yin, J., Young, I., and Zhang, C.
- Subjects
Physics - Instrumentation and Detectors ,Astrophysics - Instrumentation and Methods for Astrophysics ,High Energy Physics - Experiment - Abstract
We describe the design and assembly of the LUX-ZEPLIN experiment, a direct detection search for cosmic WIMP dark matter particles. The centerpiece of the experiment is a large liquid xenon time projection chamber sensitive to low energy nuclear recoils. Rejection of backgrounds is enhanced by a Xe skin veto detector and by a liquid scintillator Outer Detector loaded with gadolinium for efficient neutron capture and tagging. LZ is located in the Davis Cavern at the 4850' level of the Sanford Underground Research Facility in Lead, South Dakota, USA. We describe the major subsystems of the experiment and its key design features and requirements.
- Published
- 2019
- Full Text
- View/download PDF
8. Effect of Lattice Defects on the Electromigration-Induced Instability of the Interface between Joined Conductive Materials
- Author
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Makhviladze, T. M. and Sarychev, M. E.
- Published
- 2022
- Full Text
- View/download PDF
9. Adiabatic Potential Energy Surface of Jahn–Teller Cu2+\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$${\text{F}}_{8}^{ - }$$\end{document} Complexes in a Fluorite Crystal
- Author
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Sarychev, M. N., Hosseny, W. A. L., Zhevstovskikh, I. V., Ulanov, V. A., Egranov, A. V., Surikov, V. T., Averkiev, N. S., and Gudkov, V. V.
- Published
- 2022
- Full Text
- View/download PDF
10. Projected WIMP sensitivity of the LUX-ZEPLIN (LZ) dark matter experiment
- Author
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Akerib, D. S., Akerlof, C. W., Alsum, S. K., Araújo, H. M., Arthurs, M., Bai, X., Bailey, A. J., Balajthy, J., Balashov, S., Bauer, D., Belle, J., Beltrame, P., Benson, T., Bernard, E. P., Biesiadzinski, T. P., Boast, K. E., Boxer, B., Brás, P., Buckley, J. H., Bugaev, V. V., Burdin, S., Busenitz, J. K., Carels, C., Carlsmith, D. L., Carlson, B., Carmona-Benitez, M. C., Chan, C., Cherwinka, J. J., Cole, A., Cottle, A., Craddock, W. W., Currie, A., Cutter, J. E., Dahl, C. E., de Viveiros, L., Dobi, A., Dobson, J. E. Y., Druszkiewicz, E., Edberg, T. K., Edwards, W. R., Fan, A., Fayer, S., Fiorucci, S., Fruth, T., Gaitskell, R. J., Genovesi, J., Ghag, C., Gilchriese, M. G. D., van der Grinten, M. G. D., Hall, C. R., Hans, S., Hanzel, K., Haselschwardt, S. J., Hertel, S. A., Hillbrand, S., Hjemfelt, C., Hoff, M. D., Hor, J. Y-K., Huang, D. Q., Ignarra, C. M., Ji, W., Kaboth, A. C., Kamdin, K., Keefner, J., Khaitan, D., Khazov, A., Kim, Y. D., Kocher, C. D., Korolkova, E. V., Kraus, H., Krebs, H. J., Kreczko, L., Krikler, B., Kudryavtsev, V. A., Kyre, S., Lee, J., Lenardo, B. G., Leonard, D. S., Lesko, K. T., Levy, C., Li, J., Liao, J., Liao, F. -T., Lin, J., Lindote, A., Linehan, R., Lippincott, W. H., Liu, X., Lopes, M. I., Paredes, B. López, Lorenzon, W., Luitz, S., Lyle, J. M., Majewski, P., Manalaysay, A., Mannino, R. L., Maupin, C., McKinsey, D. N., Meng, Y., Miller, E. H., Mock, J., Monzani, M. E., Morad, J. A., Morrison, E., Mount, B. J., Murphy, A. St. J., Nelson, H. N., Neves, F., Nikoleyczik, J., O'Sullivan, K., Olcina, I., Olevitch, M. A., Oliver-Mallory, K. C., Palladino, K. J., Patton, S. J., Pease, E. K., Penning, B., Piepke, A., Powell, S., Preece, R. M., Pushkin, K., Ratcliff, B. N., Reichenbacher, J., Rhyne, C. A., Richards, A., Rodrigues, J. P., Rosero, R., Rossiter, P., Saba, J. S., Sarychev, M., Schnee, R. W., Schubnell, M., Scovell, P. R., Shaw, S., Shutt, T. A., Silk, J. J., Silva, C., Skarpaas, K., Skulski, W., Solmaz, M., Solovov, V. N., Sorensen, P., Stancu, I., Stark, M. R., Stiegler, T. M., Stifter, K., Szydagis, M., Taylor, W. C., Taylor, R., Taylor, D. J., Temples, D., Terman, P. A., Thomas, K. J., Timalsina, M., To, W. H., Tomás, A., Tope, T. E., Tripathi, M., Tull, C. E., Tvrznikova, L., Utku, U., Va'vra, J., Vacheret, A., Verbus, J. R., Voirin, E., Waldron, W. L., Watson, J. R., Webb, R. C., White, D. T., Whitis, T. J., Wisniewski, W. J., Witherell, M. S., Wolfs, F. L. H., Woodward, D., Worm, S. D., Yeh, M., Yin, J., and Young, I.
- Subjects
Astrophysics - Instrumentation and Methods for Astrophysics ,Astrophysics - Cosmology and Nongalactic Astrophysics ,High Energy Physics - Experiment ,Physics - Instrumentation and Detectors - Abstract
LUX-ZEPLIN (LZ) is a next generation dark matter direct detection experiment that will operate 4850 feet underground at the Sanford Underground Research Facility (SURF) in Lead, South Dakota, USA. Using a two-phase xenon detector with an active mass of 7~tonnes, LZ will search primarily for low-energy interactions with Weakly Interacting Massive Particles (WIMPs), which are hypothesized to make up the dark matter in our galactic halo. In this paper, the projected WIMP sensitivity of LZ is presented based on the latest background estimates and simulations of the detector. For a 1000~live day run using a 5.6~tonne fiducial mass, LZ is projected to exclude at 90\% confidence level spin-independent WIMP-nucleon cross sections above $1.4 \times 10^{-48}$~cm$^{2}$ for a 40~$\mathrm{GeV}/c^{2}$ mass WIMP. Additionally, a $5\sigma$ discovery potential is projected reaching cross sections below the exclusion limits of recent experiments. For spin-dependent WIMP-neutron(-proton) scattering, a sensitivity of $2.3 \times 10^{-43}$~cm$^{2}$ ($7.1 \times 10^{-42}$~cm$^{2}$) for a 40~$\mathrm{GeV}/c^{2}$ mass WIMP is expected. With underground installation well underway, LZ is on track for commissioning at SURF in 2020., Comment: 14 pages, 11 figures
- Published
- 2018
- Full Text
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11. Interface Instability of Integrated Circuit Layers under Electric Current and Mechanical Stress
- Author
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Makhviladze, T. M. and Sarychev, M. E.
- Published
- 2022
- Full Text
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12. LUX-ZEPLIN (LZ) Technical Design Report
- Author
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Mount, B. J., Hans, S., Rosero, R., Yeh, M., Chan, C., Gaitskell, R. J., Huang, D. Q., Makkinje, J., Malling, D. C., Pangilinan, M., Rhyne, C. A., Taylor, W. C., Verbus, J. R., Kim, Y. D., Lee, H. S., Lee, J., Leonard, D. S., Li, J., Belle, J., Cottle, A., Lippincott, W. H., Markley, D. J., Martin, T. J., Sarychev, M., Tope, T. E., Utes, M., Wang, R., Young, I., Araújo, H. M., Bailey, A. J., Bauer, D., Colling, D., Currie, A., Fayer, S., Froborg, F., Greenwood, S., Jones, W. G., Kasey, V., Khaleeq, M., Olcina, I., Paredes, B. López, Richards, A., Sumner, T. J., Tomás, A., Vacheret, A., Brás, P., Lindote, A., Lopes, M. I., Neves, F., Rodrigues, J. P., Silva, C., Solovov, V. N., Barry, M. J., Cole, A., Dobi, A., Edwards, W. R., Faham, C. H., Fiorucci, S., Gantos, N. J., Gehman, V. M., Gilchriese, M. G. D., Hanzel, K., Hoff, M. D., Kamdin, K., Lesko, K. T., McConnell, C. T., O'Sullivan, K., Oliver-Mallory, K. C., Patton, S. J., Saba, J. S., Sorensen, P., Thomas, K. J., Tull, C. E., Waldron, W. L., Witherell, M. S., Bernstein, A., Kazkaz, K., Xu, J., Akimov, D. Yu., Bolozdynya, A. I., Khromov, A. V., Konovalov, A. M., Kumpan, A. V., Sosnovtsev, V. V., Dahl, C. E., Temples, D., Carmona-Benitez, M. C., de Viveiros, L., Akerib, D. S., Auyeung, H., Biesiadzinski, T. P., Breidenbach, M., Bramante, R., Conley, R., Craddock, W. W., Fan, A., Hau, A., Ignarra, C. M., Ji, W., Krebs, H. J., Linehan, R., Lee, C., Luitz, S., Mizrachi, E., Monzani, M. E., O'Neill, F. G., Pierson, S., Racine, M., Ratcliff, B. N., Shutt, G. W., Shutt, T. A., Skarpaas, K., Stifter, K., To, W. H., Va'vra, J., Whitis, T. J., Wisniewski, W. J., Bai, X., Bunker, R., Coughlen, R., Hjemfelt, C., Leonard, R., Miller, E. H., Morrison, E., Reichenbacher, J., Schnee, R. W., Stark, M. R., Sundarnath, K., Tiedt, D. R., Timalsina, M., Bauer, P., Carlson, B., Horn, M., Johnson, M., Keefner, J., Maupin, C., Taylor, D. J., Balashov, S., Ford, P., Francis, V., Holtom, E., Khazov, A., Kaboth, A., Majewski, P., Nikkel, J. A., O'Dell, J., Preece, R. M., van der Grinten, M. G. D., Worm, S. D., Mannino, R. L., Stiegler, T. M., Terman, P. A., Webb, R. C., Levy, C., Mock, J., Szydagis, M., Busenitz, J. K., Elnimr, M., Hor, J. Y-K., Meng, Y., Piepke, A., Stancu, I., Kreczko, L., Krikler, B., Penning, B., Bernard, E. P., Jacobsen, R. G., McKinsey, D. N., Watson, R., Cutter, J. E., El-Jurf, S., Gerhard, R. M., Hemer, D., Hillbrand, S., Holbrook, B., Lenardo, B. G., Manalaysay, A. G., Morad, J. A., Stephenson, S., Thomson, J. A., Tripathi, M., Uvarov, S., Haselschwardt, S. J., Kyre, S., Nehrkorn, C., Nelson, H. N., Solmaz, M., White, D. T., Cascella, M., Dobson, J. E. Y., Ghag, C., Liu, X., Manenti, L., Reichhart, L., Shaw, S., Utku, U., Beltrame, P., Davison, T. J. R., Marzioni, M. F., Murphy, A. St. J., Nilima, A., Boxer, B., Burdin, S., Greenall, A., Powell, S., Rose, H. J., Sutcliffe, P., Balajthy, J., Edberg, T. K., Hall, C. R., Silk, J. S., Hertel, S., Akerlof, C. W., Arthurs, M., Lorenzon, W., Pushkin, K., Schubnell, M., Boast, K. E., Carels, C., Fruth, T., Kraus, H., Liao, F. -T., Lin, J., Scovell, P. R., Druszkiewicz, E., Khaitan, D., Koyuncu, M., Skulski, W., Wolfs, F. L. H., Yin, J., Korolkova, E. V., Kudryavtsev, V. A., Rossiter, P., Woodward, D., Chiller, A. A., Chiller, C., Mei, D. -M., Wang, L., Wei, W. -Z., While, M., Zhang, C., Alsum, S. K., Benson, T., Carlsmith, D. L., Cherwinka, J. J., Dasu, S., Gregerson, G., Gomber, B., Pagac, A., Palladino, K. J., Vuosalo, C. O., Xiao, Q., Buckley, J. H., Bugaev, V. V., Olevitch, M. A., Boulton, E. M., Emmet, W. T., Hurteau, T. W., Larsen, N. A., Pease, E. K., Tennyson, B. P., and Tvrznikova, L.
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Physics - Instrumentation and Detectors ,Astrophysics - Instrumentation and Methods for Astrophysics ,High Energy Physics - Experiment - Abstract
In this Technical Design Report (TDR) we describe the LZ detector to be built at the Sanford Underground Research Facility (SURF). The LZ dark matter experiment is designed to achieve sensitivity to a WIMP-nucleon spin-independent cross section of three times ten to the negative forty-eighth square centimeters., Comment: 392 pages. Submitted to the Department of Energy as part of the documentation for the Critical Decision Numbers Two and Three (CD-2 and CD-3) management processes. Report also available by chapter at this URL
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- 2017
13. Identification of Radiopure Titanium for the LZ Dark Matter Experiment and Future Rare Event Searches
- Author
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Akerib, D. S., Akerlof, C. W., Akimov, D. Yu., Alsum, S. K., Araújo, H. M., Arnquist, I. J., Arthurs, M., Bai, X., Bailey, A. J., Balajthy, J., Balashov, S., Barry, M. J., Belle, J., Beltrame, P., Benson, T., Bernard, E. P., Bernstein, A., Biesiadzinski, T. P., Boast, K. E., Bolozdynya, A., Boxer, B., Bramante, R., Brás, P., Buckley, J. H., Bugaev, V. V., Bunker, R., Burdin, S., Busenitz, J. K., Carels, C., Carlsmith, D. L., Carlson, B., Carmona-Benitez, M. C., Chan, C., Cherwinka, J. J., Chiller, A. A., Chiller, C., Cottle, A., Coughlen, R., Craddock, W. W., Currie, A., Dahl, C. E., Davison, T. J. R., Dobi, A., Dobson, J. E. Y., Druszkiewicz, E., Edberg, T. K., Edwards, W. R., Emmet, W. T., Faham, C. H., Fiorucci, S., Fruth, T., Gaitskell, R. J., Gantos, N. J., Gehman, V. M., Gerhard, R. M., Ghag, C., Gilchriese, M. G. D., Gomber, B., Hall, C. R., Hans, S., Hanzel, K., Haselschwardt, S. J., Hertel, S. A., Hillbrand, S., Hjemfelt, C., Hoff, M. D., Holbrook, B., Holtom, E., Hoppe, E. W., Hor, J. Y-K., Horn, M., Huang, D. Q., Hurteau, T. W., Ignarra, C. M., Jacobsen, R. G., Ji, W., Kaboth, A., Kamdin, K., Kazkaz, K., Khaitan, D., Khazov, A., Khromov, A. V., Konovalov, A. M., Korolkova, E. V., Koyuncu, M., Kraus, H., Krebs, H. J., Kudryavtsev, V. A., Kumpan, A. V., Kyre, S., Lee, C., Lee, H. S., Lee, J., Leonard, D. S., Leonard, R., Lesko, K. T., Levy, C., Liao, F. -T., Lin, J., Lindote, A., Linehan, R. E., Lippincott, W. H., Liu, X., Lopes, M. I., Paredes, B. Lopez, Lorenzon, W., Luitz, S., Majewski, P., Manalaysay, A., Manenti, L., Mannino, R. L., Markley, D. J., Martin, T. J., Marzioni, M. F., McConnell, C. T., McKinsey, D. N., Mei, D. -M., Meng, Y., Miller, E. H., Mizrachi, E., Mock, J., Monzani, M. E., Morad, J. A., Mount, B. J., Murphy, A. St. J., Nehrkorn, C., Nelson, H. N., Neves, F., Nikkel, J. A., O'Dell, J., O'Sullivan, K., Olcina, I., Olevitch, M. A., Oliver-Mallory, K. C., Palladino, K. J., Pease, E. K., Piepke, A., Powell, S., Preece, R. M., Pushkin, K., Ratcliff, B. N., Reichenbacher, J., Reichhart, L., Rhyne, C. A., Richards, A., Rodrigues, J. P., Rose, H. J., Rosero, R., Rossiter, P., Saba, J. S., Sarychev, M., Schnee, R. W., Schubnell, M., Scovell, P. R., Shaw, S., Shutt, T. A., Silva, C., Skarpaas, K., Skulski, W., Solmaz, M., Solovov, V. N., Sorensen, P., Sosnovtsev, V. V., Stancu, I., Stark, M. R., Stephenson, S., Stiegler, T. M., Stifter, K., Sumner, T. J., Szydagis, M., Taylor, D. J., Taylor, W. C., Temples, D., Terman, P. A., Thomas, K. J., Thomson, J. A., Tiedt, D. R., Timalsina, M., To, W. H., Tomás, A., Tope, T. E., Tripathi, M., Tvrznikova, L., Va'vra, J., Vacheret, A., van der Grinten, M. G. D., Verbus, J. R., Vuosalo, C. O., Waldron, W. L., Wang, R., Watson, R., Webb, R. C., Wei, W. -Z., While, M., White, D. T., Whitis, T. J., Wisniewski, W. J., Witherell, M. S., Wolfs, F. L. H., Woodward, D., Worm, S., Xu, J., Yeh, M., Yin, J., and Zhang, C.
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Physics - Instrumentation and Detectors ,High Energy Physics - Experiment - Abstract
The LUX-ZEPLIN (LZ) experiment will search for dark matter particle interactions with a detector containing a total of 10 tonnes of liquid xenon within a double-vessel cryostat. The large mass and proximity of the cryostat to the active detector volume demand the use of material with extremely low intrinsic radioactivity. We report on the radioassay campaign conducted to identify suitable metals, the determination of factors limiting radiopure production, and the selection of titanium for construction of the LZ cryostat and other detector components. This titanium has been measured with activities of $^{238}$U$_{e}$~$<$1.6~mBq/kg, $^{238}$U$_{l}$~$<$0.09~mBq/kg, $^{232}$Th$_{e}$~$=0.28\pm 0.03$~mBq/kg, $^{232}$Th$_{l}$~$=0.25\pm 0.02$~mBq/kg, $^{40}$K~$<$0.54~mBq/kg, and $^{60}$Co~$<$0.02~mBq/kg (68\% CL). Such low intrinsic activities, which are some of the lowest ever reported for titanium, enable its use for future dark matter and other rare event searches. Monte Carlo simulations have been performed to assess the expected background contribution from the LZ cryostat with this radioactivity. In 1,000 days of WIMP search exposure of a 5.6-tonne fiducial mass, the cryostat will contribute only a mean background of $0.160\pm0.001$(stat)$\pm0.030$(sys) counts., Comment: 13 pages, 3 figures, accepted for publication in Astroparticle Physics
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- 2017
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14. Quantum acoustics of the Jahn-Teller complexes in doped crystals: Configurational relaxation time as indicator of the complex
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Sarychev, M. N., primary, Zhevstovskikh, I. V., additional, Ofitserova, N. Yu., additional, Korostelin, Yu. V., additional, Ulanov, V. A., additional, Egranov, A. V., additional, Surikov, V. T., additional, Averkiev, N. S., additional, and Gudkov, V. V., additional
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- 2024
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15. Ultrasonic investigation of the Jahn-Teller effect in BaF2:Cu crystal
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Ofitserova, N Yu, primary, Sarychev, M N, additional, Zhevstovskikh, I V, additional, Ulanov, V A, additional, Surikov, V T, additional, Averkiev, N S, additional, and Gudkov, V V, additional
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- 2024
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16. Quantum dynamics of the Jahn-Teller complexes investigated by ultrasonic technique
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Gudkov, V V, primary, Averkiev, N S, additional, Zhevstovskikh, I V, additional, and Sarychev, M N, additional
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- 2024
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17. Design and Construction of the MicroBooNE Detector
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MicroBooNE Collaboration, Acciarri, R., Adams, C., An, R., Aparicio, A., Aponte, S., Asaadi, J., Auger, M., Ayoub, N., Bagby, L., Baller, B., Barger, R., Barr, G., Bass, M., Bay, F., Biery, K., Bishai, M., Blake, A., Bocean, V., Boehnlein, D., Bogert, V. D., Bolton, T., Bugel, L., Callahan, C., Camilleri, L., Caratelli, D., Carls, B., Fernandez, R. Castillo, Cavanna, F., Chappa, S., Chen, H., Chen, K., Chi, C. Y., Chiu, C. S., Church, E., Cianci, D., Collin, G. H., Conrad, J. M., Convery, M., Cornele, J., Cowan, P., Crespo-Anadon, J. I., Crutcher, G., Darve, C., Davis, R., Del Tutto, M., Devitt, D., Duffin, S., Dytman, S., Eberly, B., Ereditato, A., Erickson, D., Sanchez, L. Escudero, Esquivel, J., Farooq, S., Farrell, J., Featherston, D., Fleming, B. T., Foreman, W., Furmanski, A. P., Genty, V., Geynisman, M., Goeldi, D., Goff, B., Gollapinni, S., Graf, N., Gramellini, E., Green, J., Greene, A., Greenlee, H., Griffin, T., Grosso, R., Guenette, R., Hackenburg, A., Haenni, R., Hamilton, P., Healey, P., Hen, O., Henderson, E., Hewes, V, Hill, C., Hill, K., Himes, L., Ho, J., Horton-Smith, G., Huffman, D., Ignarra, C. M., James, C., James, E., de Vries, J. Jan, Jaskierny, W., Jen, C. M., Jiang, L., Johnson, B., Johnson, M., Johnson, R. A., Jones, B. J. P., Joshi, J., Jostlein, H., Kaleko, D., Kalousis, L. N., Karagiorgi, G., Katori, T., Kellogg, P., Ketchum, W., Kilmer, J., King, B., Kirby, B., Kirby, M., Klein, E., Kobilarcik, T., Kreslo, I., Krull, R., Kubinski, R., Lange, G., Lanni, F., Lathrop, A., Laube, A., Lee, W. M., Li, Y., Lissauer, D., Lister, A., Littlejohn, B. R., Lockwitz, S., Lorca, D., Louis, W. C., Lukhanin, G., Luethi, M., Lundberg, B., Luo, X., Mahler, G., Majoros, I., Makowiecki, D., Marchionni, A., Mariani, C., Markley, D., Marshall, J., Caicedo, D. A. Martinez, McDonald, K. T., McKee, D., McLean, A., Mead, J., Meddage, V., Miceli, T., Mills, G. B., Miner, W., Moon, J., Mooney, M., Moore, C. D., Moss, Z., Mousseau, J., Murrells, R., Naples, D., Nienaber, P., Norris, B., Norton, N., Nowak, J., OBoyle, M., Olszanowski, T., Palamara, O., Paolone, V., Papavassiliou, V., Pate, S. F., Pavlovic, Z., Pelkey, R., Phipps, M., Pordes, S., Porzio, D., Pulliam, G., Qian, X., Raaf, J. L., Radeka, V., Rafique, A., Rameika, R. A, Rebel, B., Rechenmacher, R., Rescia, S., Rochester, L., von Rohr, C. Rudolf, Ruga, A., Russell, B., Sanders, R., Sands III, W. R., Sarychev, M., Schmitz, D. W., Schukraft, A., Scott, R., Seligman, W., Shaevitz, M. H., Shoun, M., Sinclair, J., Sippach, W., Smidt, T., Smith, A., Snider, E. L., Soderberg, M., Solano-Gonzalez, M., Soldner-Rembold, S., Soleti, S. R., Sondericker, J., Spentzouris, P., Spitz, J., John, J. St., Strauss, T., Sutton, K., Szelc, A. M., Taheri, K., Tagg, N., Tatum, K., Teng, J., Terao, K., Thomson, M., Thorn, C., Tillman, J., Toups, M., Tsai, Y. T., Tufanli, S., Usher, T., Utes, M., Van de Water, R. G., Vendetta, C., Vergani, S., Voirin, E., Voirin, J., Viren, B., Watkins, P., Weber, M., Wester, T., Weston, J., Wickremasinghe, D. A., Wolbers, S., Wongjirad, T., Woodruff, K., Wu, K. C., Yang, T., Yu, B., Zeller, G. P., Zennamo, J., Zhang, C., and Zuckerbrot, M.
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Physics - Instrumentation and Detectors ,High Energy Physics - Experiment - Abstract
This paper describes the design and construction of the MicroBooNE liquid argon time projection chamber and associated systems. MicroBooNE is the first phase of the Short Baseline Neutrino program, located at Fermilab, and will utilize the capabilities of liquid argon detectors to examine a rich assortment of physics topics. In this document details of design specifications, assembly procedures, and acceptance tests are reported.
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- 2016
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18. Numerical adiabatic potentials of orthorhombic Jahn-Teller effects retrieved from ultrasound attenuation experiments. Application to the SrF2:Cr crystal
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Zhevstovskikh, I. V., Bersuker, I. B., Gudkov, V. V., Averkiev, N. S., Sarychev, M. N., Zherlitsyn, S., Yasin, S., Shakurov, G. S., Ulanov, V. A., and Surikov, V. T.
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Condensed Matter - Materials Science ,Condensed Matter - Other Condensed Matter - Abstract
A methodology is worked out to retrieve the numerical values of all the main parameters of the six-dimensional adiabatic potential energy surface (APES) of a polyatomic system with a quadratic T-term Jahn-Teller effect (JTE) from ultrasound experiments. The method is based on a verified assumption that ultrasound attenuation and speed encounter anomalies when the direction of propa- gation and polarization of its wave of strain coincides with the characteristic directions of symmetry breaking in the JTE. For the SrF2:Cr crystal, employed as a basic example, we observed anomaly peaks in the temperature dependence of attenuation of ultrasound at frequencies of 50-160 MHz in the temperature interval of 40-60 K for the wave propagating along the [110] direction, for both the longitudinal and shear modes, the latter with two polarizations along the [001] and [110] axes, respectively. We show that these anomalies are due to the ultrasound relaxation by the system of non-interacting Cr2+ JT centers with orthorhombic local distortions. The interpretation of the ex- perimental findings is based on the T2g (eg +t2g) JTE problem including the linear and quadratic terms of vibronic interactions in the Hamiltonian and the same-symmetry modes reduced to one interaction mode. Combining the experimental results with a theoretical analysis we show that on the complicated six-dimensional APES of this system with three tetragonal, four trigonal, and six orthorhombic extrema points, the latter are global minima, while the former are saddle points, and we estimate numerically all the main parameters of this surface, including the linear and quadratic vibronic coupling constants, the primary force constants, the coordinates of all the extrema points and their energies, the energy barrier between the orthorhombic minima, and the tunneling splitting of the ground vibrational states., Comment: 8 pages, 3 figures
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- 2016
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- View/download PDF
19. LUX-ZEPLIN (LZ) Technical Design Report
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Mount, BJ, Hans, S, Rosero, R, Yeh, M, Chan, C, Gaitskell, RJ, Huang, DQ, Makkinje, J, Malling, DC, Pangilinan, M, Rhyne, CA, Taylor, WC, Verbus, JR, Kim, YD, Lee, HS, Lee, J, Leonard, DS, Li, J, Belle, J, Cottle, A, Lippincott, WH, Markley, DJ, Martin, TJ, Sarychev, M, Tope, TE, Utes, M, Wang, R, Young, I, Araújo, HM, Bailey, AJ, Bauer, D, Colling, D, Currie, A, Fayer, S, Froborg, F, Greenwood, S, Jones, WG, Kasey, V, Khaleeq, M, Olcina, I, Paredes, B López, Richards, A, Sumner, TJ, Tomás, A, Vacheret, A, Brás, P, Lindote, A, Lopes, MI, Neves, F, Rodrigues, JP, Silva, C, Solovov, VN, Barry, MJ, Cole, A, Dobi, A, Edwards, WR, Faham, CH, Fiorucci, S, Gantos, NJ, Gehman, VM, Gilchriese, MGD, Hanzel, K, Hoff, MD, Kamdin, K, Lesko, KT, McConnell, CT, O'Sullivan, K, Oliver-Mallory, KC, Patton, SJ, Saba, JS, Sorensen, P, Thomas, KJ, Tull, CE, Waldron, WL, Witherell, MS, Bernstein, A, Kazkaz, K, Xu, J, Akimov, D Yu, Bolozdynya, AI, Khromov, AV, Konovalov, AM, Kumpan, AV, Sosnovtsev, VV, Dahl, CE, Temples, D, Carmona-Benitez, MC, Viveiros, L de, Akerib, DS, Auyeung, H, Biesiadzinski, TP, Breidenbach, M, Bramante, R, Conley, R, Craddock, WW, Fan, A, Hau, A, Ignarra, CM, Ji, W, and Krebs, HJ
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physics.ins-det ,astro-ph.IM ,hep-ex - Abstract
In this Technical Design Report (TDR) we describe the LZ detector to be builtat the Sanford Underground Research Facility (SURF). The LZ dark matterexperiment is designed to achieve sensitivity to a WIMP-nucleonspin-independent cross section of three times ten to the negative forty-eighthsquare centimeters.
- Published
- 2017
20. Influence of Point Defects on the Initiation of Electromigration in an Impurity Conductor
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Makhviladze, T. M. and Sarychev, M. E.
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- 2021
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21. LUX-ZEPLIN (LZ) Conceptual Design Report
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The LZ Collaboration, Akerib, D. S., Akerlof, C. W., Akimov, D. Yu., Alsum, S. K., Araújo, H. M., Bai, X., Bailey, A. J., Balajthy, J., Balashov, S., Barry, M. J., Bauer, P., Beltrame, P., Bernard, E. P., Bernstein, A., Biesiadzinski, T. P., Boast, K. E., Bolozdynya, A. I., Boulton, E. M., Bramante, R., Buckley, J. H., Bugaev, V. V., Bunker, R., Burdin, S., Busenitz, J. K., Carels, C., Carlsmith, D. L., Carlson, B., Carmona-Benitez, M. C., Cascella, M., Chan, C., Cherwinka, J. J., Chiller, A. A., Chiller, C., Craddock, W. W., Currie, A., Cutter, J. E., da Cunha, J. P., Dahl, C. E., Dasu, S., Davison, T. J. R., de Viveiros, L., Dobi, A., Dobson, J. E. Y., Druszkiewicz, E., Edberg, T. K., Edwards, B. N., Edwards, W. R., Elnimr, M. M., Emmet, W. T., Faham, C. H., Fiorucci, S., Ford, P., Francis, V. B., Fu, C., Gaitskell, R. J., Gantos, N. J., Gehman, V. M., Gerhard, R. M., Ghag, C., Gilchriese, M. G. D., Gomber, B., Hall, C. R., Harris, A., Haselschwardt, S. J., Hertel, S. A., Hoff, M. D., Holbrook, B., Holtom, E., Huang, D. Q., Hurteau, T. W., Ignarra, C. M., Jacobsen, R. G., Ji, W., Ji, X., Johnson, M., Ju, Y., Kamdin, K., Kazkaz, K., Khaitan, D., Khazov, A., Khromov, A. V., Konovalov, A. M., Korolkova, E. V., Kraus, H., Krebs, H. J., Kudryavtsev, V. A., Kumpan, A. V., Kyre, S., Larsen, N. A., Lee, C., Lenardo, B. G., Lesko, K. T., Liao, F. -T., Lin, J., Lindote, A., Lippincott, W. H., Liu, J., Liu, X., Lopes, M. I., Lorenzon, W., Luitz, S., Majewski, P., Malling, D. C., Manalaysay, A. G., Manenti, L., Mannino, R. L., Markley, D. J., Martin, T. J., Marzioni, M. F., McKinsey, D. N., Mei, D. -M., Meng, Y., Miller, E. H., Mock, J., Monzani, M. E., Morad, J. A., Murphy, A. St. J., Nelson, H. N., Neves, F., Nikkel, J. A., O'Neill, F. G., O'Dell, J., O'Sullivan, K., Olevitch, M. A., Oliver-Mallory, K. C., Palladino, K. J., Pangilinan, M., Patton, S. J., Pease, E. K., Piepke, A., Powell, S., Preece, R. M., Pushkin, K., Ratcliff, B. N., Reichenbacher, J., Reichhart, L., Rhyne, C., Rodrigues, J. P., Rose, H. J., Rosero, R., Saba, J. S., Sarychev, M., Schnee, R. W., Schubnell, M. S. G., Scovell, P. R., Shaw, S., Shutt, T. A., Silva, C., Skarpaas, K., Skulski, W., Solovov, V. N., Sorensen, P., Sosnovtsev, V. V., Stancu, I., Stark, M. R., Stephenson, S., Stiegler, T. M., Sumner, T. J., Sundarnath, K., Szydagis, M., Taylor, D. J., Taylor, W., Tennyson, B. P., Terman, P. A., Thomas, K. J., Thomson, J. A., Tiedt, D. R., To, W. H., Tomás, A., Tripathi, M., Tull, C. E., Tvrznikova, L., Uvarov, S., Va'vra, J., van der Grinten, M. G. D., Verbus, J. R., Vuosalo, C. O., Waldron, W. L., Wang, L., Webb, R. C., Wei, W. -Z., While, M., White, D. T., Whitis, T. J., Wisniewski, W. J., Witherell, M. S., Wolfs, F. L. H., Woods, E., Woodward, D., Worm, S. D., Yeh, M., Yin, J., Young, S. K., and Zhang, C.
- Subjects
Physics - Instrumentation and Detectors ,Astrophysics - Instrumentation and Methods for Astrophysics ,High Energy Physics - Experiment - Abstract
The design and performance of the LUX-ZEPLIN (LZ) detector is described as of March 2015 in this Conceptual Design Report. LZ is a second-generation dark-matter detector with the potential for unprecedented sensitivity to weakly interacting massive particles (WIMPs) of masses from a few GeV/c2 to hundreds of TeV/c2. With total liquid xenon mass of about 10 tonnes, LZ will be the most sensitive experiment for WIMPs in this mass region by the end of the decade. This report describes in detail the design of the LZ technical systems. Expected backgrounds are quantified and the performance of the experiment is presented. The LZ detector will be located at the Sanford Underground Research Facility in South Dakota. The organization of the LZ Project and a summary of the expected cost and current schedule are given., Comment: 278 pages. Submitted to the Department of Energy as part of the documentation for the Critical Decision Number One (CD-1) management process. Report also available by chapter at http://hep.ucsb.edu/LZ/CDR. This version includes corrections of minor typographic errors
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- 2015
22. Theoretical study of a new method for the quantum computer implementation based on self-organizing structures: the essence of new proposals and argumentation
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Makhviladze, T. M. and Sarychev, M. E.
- Subjects
Quantum Physics ,Condensed Matter - Disordered Systems and Neural Networks ,Condensed Matter - Mesoscale and Nanoscale Physics ,Condensed Matter - Quantum Gases ,Condensed Matter - Statistical Mechanics - Abstract
General key problems in relation to the application of self-organizing structures theory to the analysis of current cooperative phenomena are discussed. Particularly, we present the new results of the analysis of burning problem to form a qubit network. Recently [Proc. of the Inst. of Physics and Technol. of Russian Acad. of Sci. (Trudy FTIAN), vol. 25 (accepted for publication on Jan. 15, 2015)] we have proposed a new method for quantum computer implementation based on self-organizing structures. Here we consider in detail the essence of new proposals and theoretical argumentation. We have shown that some self-organizing structures, both dissipative ones and thermodynamically equilibrium structures with off-diagonal long-range order, are promising to form a qubit network. This is confirmed by our results of the investigations relative to the following items: an open resonator with periodic boundaries, conditions to create specific distribution of the modes and the effect of the field crystallization, the use of this effect to create an proficient and coherentized system of neutral atoms traps and to achieve their precise localization; the equilibrium systems which can go, at temperatures below critical ones, into the special state with off-diagonal long-range order (i.e. to the state with macroscopic quantum coherence), phase transition (photons condensation) in the two-level atoms interacting with radiation mode in the resonator, superradiant phase transition, the order-disorder type ferroelectrics in the cavity electromagnetic field, the advantage of the systems capable to self-organization, including the suppression of the temperature influence as the decoherence factor acting on the work states of the qubits (atoms, ferroelectric molecules), and also the coherent character of the direct dipole-dipole interaction between qubits (in the case of ferroelectrics), and other items., Comment: 39 pages, in Russian
- Published
- 2015
23. Relaxation Contribution of a System of Jahn–Teller Complexes to the Elastic Moduli of Doped Fluorites
- Author
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Sarychev, M. N., Bondarevskaya, A. S., Zhevstovskikh, I. V., Ulanov, V. A., Shakurov, G. S., Egranov, A. V., Surikov, V. T., Averkiev, N. S., and Gudkov, V. V.
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- 2021
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24. The LUX-ZEPLIN (LZ) experiment
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Akerib, D.S., Akerlof, C.W., Akimov, D.Yu., Alquahtani, A., Alsum, S.K., Anderson, T.J., Angelides, N., Araújo, H.M., Arbuckle, A., Armstrong, J.E., Arthurs, M., Auyeung, H., Bai, X., Bailey, A.J., Balajthy, J., Balashov, S., Bang, J., Barry, M.J., Barthel, J., Bauer, D., Bauer, P., Baxter, A., Belle, J., Beltrame, P., Bensinger, J., Benson, T., Bernard, E.P., Bernstein, A., Bhatti, A., Biekert, A., Biesiadzinski, T.P., Birrittella, B., Boast, K.E., Bolozdynya, A.I., Boulton, E.M., Boxer, B., Bramante, R., Branson, S., Brás, P., Breidenbach, M., Buckley, J.H., Bugaev, V.V., Bunker, R., Burdin, S., Busenitz, J.K., Campbell, J.S., Carels, C., Carlsmith, D.L., Carlson, B., Carmona-Benitez, M.C., Cascella, M., Chan, C., Cherwinka, J.J., Chiller, A.A., Chiller, C., Chott, N.I., Cole, A., Coleman, J., Colling, D., Conley, R.A., Cottle, A., Coughlen, R., Craddock, W.W., Curran, D., Currie, A., Cutter, J.E., da Cunha, J.P., Dahl, C.E., Dardin, S., Dasu, S., Davis, J., Davison, T.J.R., de Viveiros, L., Decheine, N., Dobi, A., Dobson, J.E.Y., Druszkiewicz, E., Dushkin, A., Edberg, T.K., Edwards, W.R., Edwards, B.N., Edwards, J., Elnimr, M.M., Emmet, W.T., Eriksen, S.R., Faham, C.H., Fan, A., Fayer, S., Fiorucci, S., Flaecher, H., Fogarty Florang, I.M., Ford, P., Francis, V.B., Froborg, F., Fruth, T., Gaitskell, R.J., Gantos, N.J., Garcia, D., Geffre, A., Gehman, V.M., Gelfand, R., Genovesi, J., Gerhard, R.M., Ghag, C., Gibson, E., Gilchriese, M.G.D., Gokhale, S., Gomber, B., Gonda, T.G., Greenall, A., Greenwood, S., Gregerson, G., van der Grinten, M.G.D., Gwilliam, C.B., Hall, C.R., Hamilton, D., Hans, S., Hanzel, K., Harrington, T., Harrison, A., Hasselkus, C., Haselschwardt, S.J., Hemer, D., Hertel, S.A., Heise, J., Hillbrand, S., Hitchcock, O., Hjemfelt, C., Hoff, M.D., Holbrook, B., Holtom, E., Hor, J.Y-K., Horn, M., Huang, D.Q., Hurteau, T.W., Ignarra, C.M., Irving, M.N., Jacobsen, R.G., Jahangir, O., Jeffery, S.N., Ji, W., Johnson, M., Johnson, J., Johnson, P., Jones, W.G., Kaboth, A.C., Kamaha, A., Kamdin, K., Kasey, V., Kazkaz, K., Keefner, J., Khaitan, D., Khaleeq, M., Khazov, A., Khromov, A.V., Khurana, I., Kim, Y.D., Kim, W.T., Kocher, C.D., Konovalov, A.M., Korley, L., Korolkova, E.V., Koyuncu, M., Kras, J., Kraus, H., Kravitz, S.W., Krebs, H.J., Kreczko, L., Krikler, B., Kudryavtsev, V.A., Kumpan, A.V., Kyre, S., Lambert, A.R., Landerud, B., Larsen, N.A., Laundrie, A., Leason, E.A., Lee, H.S., Lee, J., Lee, C., Lenardo, B.G., Leonard, D.S., Leonard, R., Lesko, K.T., Levy, C., Li, J., Liu, Y., Liao, J., Liao, F.-T., Lin, J., Lindote, A., Linehan, R., Lippincott, W.H., Liu, R., Liu, X., Loniewski, C., Lopes, M.I., López Paredes, B., Lorenzon, W., Lucero, D., Luitz, S., Lyle, J.M., Lynch, C., Majewski, P.A., Makkinje, J., Malling, D.C., Manalaysay, A., Manenti, L., Mannino, R.L., Marangou, N., Markley, D.J., MarrLaundrie, P., Martin, T.J., Marzioni, M.F., Maupin, C., McConnell, C.T., McKinsey, D.N., McLaughlin, J., Mei, D.-M., Meng, Y., Miller, E.H., Minaker, Z.J., Mizrachi, E., Mock, J., Molash, D., Monte, A., Monzani, M.E., Morad, J.A., Morrison, E., Mount, B.J., Murphy, A.St.J., Naim, D., Naylor, A., Nedlik, C., Nehrkorn, C., Nelson, H.N., Nesbit, J., Neves, F., Nikkel, J.A., Nikoleyczik, J.A., Nilima, A., O’Dell, J., Oh, H., O’Neill, F.G., O’Sullivan, K., Olcina, I., Olevitch, M.A., Oliver-Mallory, K.C., Oxborough, L., Pagac, A., Pagenkopf, D., Pal, S., Palladino, K.J., Palmaccio, V.M., Palmer, J., Pangilinan, M., Patton, S.J., Pease, E.K., Penning, B.P., Pereira, G., Pereira, C., Peterson, I.B., Piepke, A., Pierson, S., Powell, S., Preece, R.M., Pushkin, K., Qie, Y., Racine, M., Ratcliff, B.N., Reichenbacher, J., Reichhart, L., Rhyne, C.A., Richards, A., Riffard, Q., Rischbieter, G.R.C., Rodrigues, J.P., Rose, H.J., Rosero, R., Rossiter, P., Rucinski, R., Rutherford, G., Rynders, D., Saba, J.S., Sabarots, L., Santone, D., Sarychev, M., Sazzad, A.B.M.R., Schnee, R.W., Schubnell, M., Scovell, P.R., Severson, M., Seymour, D., Shaw, S., Shutt, G.W., Shutt, T.A., Silk, J.J., Silva, C., Skarpaas, K., Skulski, W., Smith, A.R., Smith, R.J., Smith, R.E., So, J., Solmaz, M., Solovov, V.N., Sorensen, P., Sosnovtsev, V.V., Stancu, I., Stark, M.R., Stephenson, S., Stern, N., Stevens, A., Stiegler, T.M., Stifter, K., Studley, R., Sumner, T.J., Sundarnath, K., Sutcliffe, P., Swanson, N., Szydagis, M., Tan, M., Taylor, W.C., Taylor, R., Taylor, D.J., Temples, D., Tennyson, B.P., Terman, P.A., Thomas, K.J., Thomson, J.A., Tiedt, D.R., Timalsina, M., To, W.H., Tomás, A., Tope, T.E., Tripathi, M., Tronstad, D.R., Tull, C.E., Turner, W., Tvrznikova, L., Utes, M., Utku, U., Uvarov, S., Va’vra, J., Vacheret, A., Vaitkus, A., Verbus, J.R., Vietanen, T., Voirin, E., Vuosalo, C.O., Walcott, S., Waldron, W.L., Walker, K., Wang, J.J., Wang, R., Wang, L., Wang, Y., Watson, J.R., Migneault, J., Weatherly, S., Webb, R.C., Wei, W.-Z., While, M., White, R.G., White, J.T., White, D.T., Whitis, T.J., Wisniewski, W.J., Wilson, K., Witherell, M.S., Wolfs, F.L.H., Wolfs, J.D., Woodward, D., Worm, S.D., Xiang, X., Xiao, Q., Xu, J., Yeh, M., Yin, J., Young, I., and Zhang, C.
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- 2020
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25. Exciton binding energy and the origin of yellow-light emission in CH3NH3PbBr3 single crystals
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Zhevstovskikh, I. V., primary, Averkiev, N. S., additional, Sarychev, M. N., additional, Semenova, O. I., additional, and Tereshchenko, O. E., additional
- Published
- 2024
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26. Tunneling Relaxation Mechanisms of the Jahn–Teller Complexes in a CaF2:Cr2+ Crystal
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Sarychev, M. N., Bondarevskaya, A. S., Zhevstovskikh, I. V., Ulanov, V. A., Shakurov, G. S., Egranov, A. V., Surikov, V. T., Averkiev, N. S., and Gudkov, V. V.
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- 2021
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27. Erratum to: The LUX-ZEPLIN (LZ) radioactivity and cleanliness control programs
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Akerib, D. S., Akerlof, C. W., Akimov, D. Yu., Alquahtani, A., Alsum, S. K., Anderson, T. J., Angelides, N., Araújo, H. M., Arbuckle, A., Armstrong, J. E., Arthurs, M., Auyeung, H., Aviles, S., Bai, X., Bailey, A. J., Balajthy, J., Balashov, S., Bang, J., Barry, M. J., Bauer, D., Bauer, P., Baxter, A., Belle, J., Beltrame, P., Bensinger, J., Benson, T., Bernard, E. P., Bernstein, A., Bhatti, A., Biekert, A., Biesiadzinski, T. P., Birch, H. J., Birrittella, B., Boast, K. E., Bolozdynya, A. I., Boulton, E. M., Boxer, B., Bramante, R., Branson, S., Brás, P., Breidenbach, M., Brew, C. A. J., Buckley, J. H., Bugaev, V. V., Bunker, R., Burdin, S., Busenitz, J. K., Cabrita, R., Campbell, J. S., Carels, C., Carlsmith, D. L., Carlson, B., Carmona-Benitez, M. C., Cascella, M., Chan, C., Cherwinka, J. J., Chiller, A. A., Chiller, C., Chott, N. I., Cole, A., Coleman, J., Colling, D., Conley, R. A., Cottle, A., Coughlen, R., Cox, G., Craddock, W. W., Curran, D., Currie, A., Cutter, J. E., da Cunha, J. P., Dahl, C. E., Dardin, S., Dasu, S., Davis, J., Davison, T. J. R., de Viveiros, L., Decheine, N., Dobi, A., Dobson, J. E. Y., Druszkiewicz, E., Dushkin, A., Edberg, T. K., Edwards, W. R., Edwards, B. N., Edwards, J., Elnimr, M. M., Emmet, W. T., Eriksen, S. R., Faham, C. H., Fan, A., Fayer, S., Fiorucci, S., Flaecher, H., Florang, I. M. Fogarty, Ford, P., Francis, V. B., Fraser, E. D., Froborg, F., Fruth, T., Gaitskell, R. J., Gantos, N. J., Garcia, D., Gehman, V. M., Gelfand, R., Genovesi, J., Gerhard, R. M., Ghag, C., Gibson, E., Gilchriese, M. G. D., Gokhale, S., Gomber, B., Gonda, T. G., Greenall, A., Greenwood, S., Gregerson, G., van der Grinten, M. G. D., Gwilliam, C. B., Hall, C. R., Hamilton, D., Hans, S., Hanzel, K., Harrington, T., Harrison, A., Harrison, J., Hasselkus, C., Haselschwardt, S. J., Hemer, D., Hertel, S. A., Heise, J., Hillbrand, S., Hitchcock, O., Hjemfelt, C., Hoff, M. D., Holbrook, B., Holtom, E., Hor, J. Y-K., Horn, M., Huang, D. Q., Hurteau, T. W., Ignarra, C. M., Irving, M. N., Jacobsen, R. G., Jahangir, O., Jeffery, S. N., Ji, W., Johnson, M., Johnson, J., Johnson, P., Jones, W. G., Kaboth, A. C., Kamaha, A., Kamdin, K., Kasey, V., Kazkaz, K., Keefner, J., Khaitan, D., Khaleeq, M., Khazov, A., Khromov, A. V., Khurana, I., Kim, Y. D., Kim, W. T., Kocher, C. D., Kodroff, D., Konovalov, A. M., Korley, L., Korolkova, E. V., Koyuncu, M., Kras, J., Kraus, H., Kravitz, S. W., Krebs, H. J., Kreczko, L., Krikler, B., Kudryavtsev, V. A., Kumpan, A. V., Kyre, S., Lambert, A. R., Landerud, B., Larsen, N. A., Laundrie, A., Leason, E. A., Lee, H. S., Lee, J., Lee, C., Lenardo, B. G., Leonard, D. S., Leonard, R., Lesko, K. T., Levy, C., Li, J., Liu, Y., Liao, J., Liao, F.-T., Lin, J., Lindote, A., Linehan, R., Lippincott, W. H., Liu, R., Liu, X., Loniewski, C., Lopes, M. I., Lopez-Asamar, E., Paredes, B. López, Lorenzon, W., Lucero, D., Luitz, S., Lyle, J. M., Lynch, C., Majewski, P. A., Makkinje, J., Malling, D. C., Manalaysay, A., Manenti, L., Mannino, R. L., Marangou, N., Markley, D. J., MarrLaundrie, P., Martin, T. J., Marzioni, M. F., Maupin, C., McConnell, C. T., McKinsey, D. N., McLaughlin, J., Mei, D.-M., Meng, Y., Miller, E. H., Minaker, Z. J., Mizrachi, E., Mock, J., Molash, D., Monte, A., Monzani, M. E., Morad, J. A., Morrison, E., Mount, B. J., Murphy, A. St. J., Naim, D., Naylor, A., Nedlik, C., Nehrkorn, C., Nelson, H. N., Nesbit, J., Neves, F., Nikkel, J. A., Nikoleyczik, J. A., Nilima, A., O’Dell, J., Oh, H., O’Neill, F. G., O’Sullivan, K., Olcina, I., Olevitch, M. A., Oliver-Mallory, K. C., Oxborough, L., Pagac, A., Pagenkopf, D., Pal, S., Palladino, K. J., Palmaccio, V. M., Palmer, J., Pangilinan, M., Parveen, N., Patton, S. J., Pease, E. K., Penning, B. P., Pereira, G., Pereira, C., Peterson, I. B., Piepke, A., Pierson, S., Powell, S., Preece, R. M., Pushkin, K., Qie, Y., Racine, M., Ratcliff, B. N., Reichenbacher, J., Reichhart, L., Rhyne, C. A., Richards, A., Riffard, Q., Rischbieter, G. R. C., Rodrigues, J. P., Rose, H. J., Rosero, R., Rossiter, P., Rucinski, R., Rutherford, G., Saba, J. S., Sabarots, L., Santone, D., Sarychev, M., Sazzad, A. B. M. R., Schnee, R. W., Schubnell, M., Scovell, P. R., Severson, M., Seymour, D., Shaw, S., Shutt, G. W., Shutt, T. A., Silk, J. J., Silva, C., Skarpaas, K., Skulski, W., Smith, A. R., Smith, R. J., Smith, R. E., So, J., Solmaz, M., Solovov, V. N., Sorensen, P., Sosnovtsev, V. V., Stancu, I., Stark, M. R., Stephenson, S., Stern, N., Stevens, A., Stiegler, T. M., Stifter, K., Studley, R., Sumner, T. J., Sundarnath, K., Sutcliffe, P., Swanson, N., Szydagis, M., Tan, M., Taylor, W. C., Taylor, R., Taylor, D. J., Temples, D., Tennyson, B. P., Terman, P. A., Thomas, K. J., Thomson, J. A., Tiedt, D. R., Timalsina, M., To, W. H., Tomás, A., Tope, T. E., Tripathi, M., Tronstad, D. R., Tull, C. E., Turner, W., Tvrznikova, L., Utes, M., Utku, U., Uvarov, S., Va’vra, J., Vacheret, A., Vaitkus, A., Verbus, J. R., Vietanen, T., Voirin, E., Vuosalo, C. O., Walcott, S., Waldron, W. L., Walker, K., Wang, J. J., Wang, R., Wang, L., Wang, W., Wang, Y., Watson, J. R., Migneault, J., Weatherly, S., Webb, R. C., Wei, W.-Z., While, M., White, R. G., White, J. T., White, D. T., Whitis, T. J., Wisniewski, W. J., Wilson, K., Witherell, M. S., Wolfs, F. L. H., Wolfs, J. D., Woodward, D., Worm, S. D., Xiang, X., Xiao, Q., Xu, J., Yeh, M., Yin, J., Young, I., Zhang, C., and Zarzhitsky, P.
- Published
- 2022
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28. Effect of Point Defects on the Electromigration Rate at the Interface of Joined Materials
- Author
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Makhviladze, T. M. and Sarychev, M. E.
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- 2020
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29. Jahn–Teller Cr2+ Centers in a CdSe Crystal
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Shakurov, G. S., Gudkov, V. V., Zhevstovskikh, I. V., Sarychev, M. N., and Korostelin, Yu. V.
- Published
- 2020
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30. Ultrasonic investigation of the Jahn-Teller effect in BaF2:Cu crystal.
- Author
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Ofitserova, N Yu, Sarychev, M N, Zhevstovskikh, I V, Ulanov, V A, Surikov, V T, Averkiev, N S, and Gudkov, V V
- Published
- 2024
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31. Photoluminescence of bulkα -In2Se3 crystals irradiated by high-energy electrons
- Author
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Lobanov, A. D., primary, Sulimov, M. A., additional, Radzivonchik, D. I., additional, Sarychev, M. N., additional, Ivanov, V. Yu., additional, and Kuznetsova, T. V., additional
- Published
- 2023
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32. Simulation of the Effect of the Grain Boundary Structure on Effective Ionic Charges in the Processes of Electromigration
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Makhviladze, T. M. and Sarychev, M. E.
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- 2019
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33. Effect of Point Defects on the Interface Strength of Joint Materials
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Goldstein, R. V., Makhviladze, T. M., and Sarychev, M. E.
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- 2019
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34. Ultrasonic Determination of the Jahn–Teller Effect Parameters in Impurity-Containing Crystals
- Author
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Averkiev, N. S., Bersuker, I. B., Gudkov, V. V., Zhevstovskikh, I. V., Sarychev, M. N., Zherlitsyn, S., Yasin, S., Korostelin, Yu. V., and Surikov, V. T.
- Published
- 2019
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35. Determining the Parameters of the Jahn–Teller Effect in Impurity Centers from Ultrasonic Experiments: Application to the ZnSe : Ni2+ Crystal
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Sarychev, M. N., Zhevstovskikh, I. V., Averkiev, N. S., Bersuker, I. B., Gudkov, V. V., and Surikov, V. T.
- Published
- 2019
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- View/download PDF
36. Sub-lattice of Jahn-Teller centers in hexaferrite crystal
- Author
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Gudkov, V. V., Sarychev, M. N., Zherlitsyn, S., Zhevstovskikh, I. V., Averkiev, N. S., Vinnik, D. A., Gudkova, S. A., Niewa, R., Dressel, M., Alyabyeva, L. N., Gorshunov, B. P., and Bersuker, I. B.
- Published
- 2020
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37. The Model of the Process of the Chemical Mechanical Polishing of the Copper Metallization, Based on the Formation of the Passivation Layer
- Author
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Makhviladze, T. M. and Sarychev, M. E.
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- 2018
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38. Radiation-Induced Effects in Ce3+- and Eu2+-Doped Al5O6N
- Author
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Yagodin, V. V., Ishchenko, A. V., Sarychev, M. N., Babailova, G. F., Akhmadullina, N. S., Lysenkov, A. S., Kargin, Yu. F., and Shul’gin, B. V.
- Published
- 2018
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39. Simulating the Effects of Internal Mechanical Stresses on the Decomposition Kinetics of a Supersaturated Oxygen Solution in Silicon
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Makhviladze, T. M. and Sarychev, M. E.
- Published
- 2018
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40. Photoluminescence of bulk α-In2Se3 crystals irradiated by high-energy electrons.
- Author
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Lobanov, A. D., Sulimov, M. A., Radzivonchik, D. I., Sarychev, M. N., Ivanov, V. Yu., and Kuznetsova, T. V.
- Subjects
PHOTOLUMINESCENCE ,ELECTRONS ,IRRADIATION ,CRYSTALS ,ACTIVATION energy ,ELECTRONIC equipment ,ION recombination - Abstract
The photoluminescence (PL) spectra of bulk α-In
2 Se3 crystals before and after 10 MeV electrons irradiation with the 1015 and 1017 cm−2 fluences were studied in the temperature range from 7 to 340 K. Three main types of radiative recombinations corresponding to band-to-tail (BT), deep defects, and band-to-band (BB) recombination were manifested in the non-irradiated α-In2 Se3 crystals. Also recombinations that can be associated with exciton recombinations at temperatures below 45 K are observed. After electron irradiation, noticeable changes in the PL spectra are observed. We detected a slight increase in activation energy of the BT recombination. An increase in the concentration of deep defects is also noted. The significant decrease in PL intensity of the BB recombinations indicates the formation of non-radiative recombination centers after electron irradiation with the 1017 cm−2 fluence. Our study may be useful for understanding the effects of high-energy electrons irradiation on the performance of electronic and photovoltaic devices based on α-In2 Se3 . [ABSTRACT FROM AUTHOR]- Published
- 2023
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41. IR Luminescence of α-Al2O3 – δ at 4–300 K
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Sarychev, M. N., Milman, I. I., Surdo, A. I., Abashev, R. M., and Voinov, V. S.
- Published
- 2018
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42. Adiabatic Potential Energy Surface of Jahn–Teller Cu2+$${\text{F}}_{8}^{ - }$$ Complexes in a Fluorite Crystal
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Sarychev, M. N., primary, Hosseny, W. A. L., additional, Zhevstovskikh, I. V., additional, Ulanov, V. A., additional, Egranov, A. V., additional, Surikov, V. T., additional, Averkiev, N. S., additional, and Gudkov, V. V., additional
- Published
- 2022
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43. Characteristics of the kinetics of periodic structures CMP for a nonlinear pressure dependence of the polishing rate
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Goldstein, R. V., Makhviladze, T. M., and Sarychev, M. E.
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- 2016
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44. Hardware for new methods of radiation control
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Milman, I. I., Surdo, A. I., Moiseykin, E. V., Abashev, R. M., Sarychev, M. N., and Borisikhin, I. A.
- Published
- 2016
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45. Temperature anomaly of the coefficient of ultrasonic absorption by electrons of hybridized states of cobalt impurities in mercury selenide
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Zhevstovskikh, I. V., Okulov, V. I., Gudkov, V. V., Mayakin, V. Yu., Sarychev, M. N., Andriichuk, M. D., and Paranchich, L. D.
- Published
- 2015
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46. Influence of electrical current on the stability of a conducting film surface
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Goldstein, R. V., Makhviladze, T. M., and Sarychev, M. E.
- Published
- 2015
- Full Text
- View/download PDF
47. Contribution of the distorted Jahn-Teller complexes to the elastic moduli in fluorite crystal
- Author
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Sarychev, M. N., primary, Hosseny, W. A. L., additional, Ulanov, V. A., additional, Egranov, A. V., additional, Surikov, V. T., additional, Zhevstovskikh, I. V., additional, Averkiev, N. S., additional, and Gudkov, V. V., additional
- Published
- 2022
- Full Text
- View/download PDF
48. Simulation of spatially-heterogeneous oxygen precipitation in silicon with allowance for internal mechanical stresses
- Author
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Goldshtein, R. V., Makhviladze, T. M., and Sarychev, M. E.
- Published
- 2014
- Full Text
- View/download PDF
49. Adiabatic Potential Energy Surface of Jahn–Teller Cu2+ Complexes in a Fluorite Crystal.
- Author
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Sarychev, M. N., Hosseny, W. A. L., Zhevstovskikh, I. V., Ulanov, V. A., Egranov, A. V., Surikov, V. T., Averkiev, N. S., and Gudkov, V. V.
- Subjects
- *
POTENTIAL energy surfaces , *FLUORITE , *VIBRONIC coupling , *JAHN-Teller effect , *COPPER ions - Abstract
We present the results of our ultrasonic studies in a fluorite (CaF2) single crystal with isovalent substitution of Ca2+ ions by copper ions performed at frequencies 23–163 MHz in the temperature range 4–240 K. Anomalies typical for the relaxational contributions of systems of Jahn–Teller complexes have been found in the temperature dependences of the attenuation and velocity of the longitudinal and transverse normal modes associated with the elastic moduli cL = c44 + (c11 + c12)/2 and cE = (c11 – c12)/2 at temperatures below 80 K. The Cu2+ ions in a cubic environment in the ground state possess threefold orbital degeneracy, are described by the T (e + t2) Jahn–Teller effect problem, and have an adiabatic potential energy surface specified in the five-dimensional space of trigonal and tetragonal symmetrized coordinates. An analysis of the experimental data has allowed us to determine the symmetry properties of the extrema (global minima and saddle points) of the lowest adiabatic potential energy sheet and to find the linear (tetragonal and trigonal) and quadratic vibronic coupling constants of the Jahn–Teller Cu2+ complexes in the CaF2 matrix appearing in the vibronic Hamiltonian, the Jahn–Teller stabilization energies, and the coordinates of these extrema in the five-dimensional space of normal coordinates. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
50. Effects of irradiation of ZnO/CdS/Cu2ZnSnSe4/Mo/glass solar cells by 10 MeV electrons on photoluminescence spectra
- Author
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Sulimov, M. A., Sarychev, M. N., Yakushev, M. V., Márquez-Prieto, J., Forbes, I., Ivanov, V. Y., Edwards, P. R., Mudryi, A. V., Krustok, J., Martin, R. W., Sulimov, M. A., Sarychev, M. N., Yakushev, M. V., Márquez-Prieto, J., Forbes, I., Ivanov, V. Y., Edwards, P. R., Mudryi, A. V., Krustok, J., and Martin, R. W.
- Abstract
Solar cells with the structure ZnO/CdS/Cu2ZnSnSe4/Mo/glass were studied by photoluminescence (PL) before and after irradiation with a dose of 1.8 × 1015 cm−2 and then 5.4 × 1015 cm−2 of 10 MeV electrons carried out at 77 K in liquid nitrogen bath. The low temperature PL spectra before irradiation revealed two bands, a broad and asymmetrical dominant band at 0.94 eV from the CZTSe layer and a lower intensity high energy band (HEB) at 1.3 eV, generated by defects in the CdS buffer layer. Analysis of the excitation intensity and temperature dependencies suggested that the dominant band is free-to-bound (FB): the recombination of free electrons with holes localised at acceptors whose energy levels are affected by potential fluctuations of the valence band due to high concentrations of randomly distributed charged defects. Irradiation did not induce any new band in the examined spectral range (from 0.5 μm to 1.65 μm) but reduced the intensity of both bands in the PL spectra measured at 77 K without warming the cells. The higher the dose the greater was the reduction. After this the cells were warmed to 300 K and moved to a variable temperature cryostat to measure temperature dependencies of the PL spectra. After irradiation the red shift rate of the FB band with temperature rise was found to increase. Electrons displace atoms in the lattice creating primary defects: interstitials and vacancies. These defects recombine during and shortly after irradiation forming secondary defect complexes which work as deep non-radiative traps of charge carriers reducing the PL intensity and increasing the rate of the temperature red shift. Irradiation did not affect the mean depth of the band tails estimated from the shape of the low energy side of the dominant PL band. © 2020 Elsevier Ltd
- Published
- 2021
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